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287 results on '"Coe, Malcolm"'

1. CXOU J005245.0-722844: Discovery of a Be Star / White Dwarf binary system in the SMC via a very fast, super-Eddington X-ray outburst event

Author

Gaudin, Thomas M., Coe, Malcolm J., Kennea, Jamie A., Monageng, Itumaleng M., Buckley, David A. H., Udalski, Andrzej, and Evans, Phil A.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

CXOU J005245.0-722844 is an X-ray source in the Small Magellanic Cloud (SMC) that has long been known as a Be/X-ray binary (BeXRB) star, containing an OBe main sequence star and a compact object. In this paper, we report on a new very fast X-ray outburst from CXOU J005245.0-722844. X-ray observations taken by Swift constrain the duration of the outburst to less than 16 days and find that the source reached super-Eddington X-ray luminosities during the initial phases of the eruption. The XRT spectrum of CXOU J005245.0-722844 during this outburst reveals a super-soft X-ray source, best fit by an absorbed thermal blackbody model. Optical and Ultraviolet follow-up observations from the Optical Gravitational Lensing Experiment (OGLE), Asteroid Terrestrial-impact Last Alert System (ATLAS), and Swift identify a brief ~0.5 magnitude optical burst coincident with the X-ray outburst that lasted for less than 7 days. Optical photometry additionally identifies the orbital period of the system to be 17.55 days and identifies a shortening of the period to 17.14 days in the years leading up to the outburst. Optical spectroscopy from the Southern African Large Telescope (SALT) confirms that the optical companion is an early-type OBe star. We conclude from our observations that the compact object in this system is a white dwarf (WD), making this the seventh candidate Be/WD X-ray binary. The X-ray outburst is found to be the result of a very-fast, ultra-luminous nova similar to the outburst of MAXI J0158-744.

Published
2024

2. Discovery of a Rare Eclipsing Be/X-ray Binary System, Swift J010902.6-723710 = SXP 182

Author

Gaudin, Thomas M., Kennea, Jamie A., Coe, Malcolm J., Monageng, Itumeleng M., Udalski, Andrzej, Townsend, Lee J., Buckley, David A. H., and Evans, Phil A.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

We report on the discovery of Swift J010902.6-723710, a rare eclipsing Be/X-ray Binary system by the Swift SMC Survey (S-CUBED). Swift J010902.6-723710 was discovered via weekly S-CUBED monitoring observations when it was observed to enter a state of X-ray outburst on 10 October 2023. X-ray emission was found to be modulated by a 182s period. Optical spectroscopy is used to confirm the presence of a highly-inclined circumstellar disk surrounding a B0-0.5Ve optical companion. Historical UV and IR photometry are then used to identify strong eclipse-like features re-occurring in both light curves with a 60.623 day period, which is adopted as the orbital period of the system. Eclipsing behavior is found to be the result of a large accretion disk surrounding the neutron star. Eclipses are produced when the disk passes in front of the OBe companion, blocking light from both the stellar surface and circumstellar disk. This is only the third Be/X-ray Binary to have confirmed eclipses. We note that this rare behavior provides an important opportunity to constrain the physical parameters of a Be/X-ray Binary with greater accuracy than is possible in non-eclipsing systems., Comment: 10 pages, 12 figures. To be published in the Astrophysical Journal Letters

Published
2024

3. The 2022 super-Eddington outburst of the source SMC X-2

Author

Coe, Malcolm J., Kennea, Jamie A., Monageng, Itumeleng M., Townsend, Lee J., Buckley, David A. H., Williams, Maia, Udalski, Andrzej, and Evans, Phil A.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

SMC X-2 exhibits X-ray outburst behaviour that makes it one of the most luminous X-ray sources in the Small Magellanic Cloud. In the last decade it has undergone two such massive outbursts - in 2015 and 2022. The first outburst is well reported in the literature, but the 2022 event has yet to be fully described and discussed. That is the goal of this paper. In particular, the post-peak characteristics of the two events are compared. This reveals clear similarities in decay profiles, believed to be related to different accretion mechanisms occurring at different times as the outbursts evolve. The H{\alpha} emission line indicates that the Be disc undergoes complex structural variability, with evidence of warping as a result of its interaction with the neutron star. The detailed observations reported here will be important for modelling such interactions in this kind of binary systems., Comment: Accepted for publication in MNRAS

Published
2024

4. Disentangling the neighbouring pulsars SXP 15.3 and SXP 305

Author

Monageng, Itumeleng M., Coe, Malcolm J., Townsend, Lee J., Laycock, Silas G. T., Kennea, Jamie A., Roy, Ankur, Udalski, Andrzej, Bhattacharya, Sayantan, Christodoulou, Dimitris M., Buckley, David A. H., and Evans, Phil A.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

SXP 15.3 and SXP 305 are two Be X-ray binaries in the Small Magellanic Cloud that are spatially separated by ~7 arcsec. The small separation between these sources has, in the past, resulted in confusion about the origin of the emission from the combined region. We present long-term optical and X-ray monitoring results of both sources, where we study the historic and recent behaviour. In particular, from data collected as part of the S-CUBED project we see repeating X-ray outbursts from the combined region of the two sources in the recent lightcurve from the Neil Gehrels Swift Observatory, and we investigate the origin of this emission. Using the H-alpha emission line from the Southern African Large Telescope (SALT) and photometric flux from the Optical Gravitational Lensing Experiment (OGLE) to study the changes in the size and structure of the Be disc, we demonstrate that the X-ray emission likely originates from SXP 15.3. Timing analysis reveals unusual behaviour, where the optical outburst profile shows modulation at twice the frequency of the X-ray outbursts. We consider either of these periodicities being the true orbital period in SXP 15.3 and propose models based on the geometric orientations of the Be disc and neutron star to explain the physical origin of the outbursts., Comment: Accepted for publication in MNRAS

Published
2022
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5. Advances in Understanding High-Mass X-ray Binaries with INTEGRAL and Future Directions

Author

Kretschmar, Peter, Fürst, Felix, Sidoli, Lara, Bozzo, Enrico, Alfonso-Garzón, Julia, Bodaghee, Arash, Chaty, Sylvain, Chernyakova, Masha, Ferrigno, Carlo, Manousakis, Antonios, Negueruela, Ignacio, Postnov, Konstantin, Paizis, Adamantia, Reig, Pablo, Rodes-Roca, José Joaquín, Tsygankov, Sergey, Bird, Antony J., Kühnel, Matthias Bissinger né, Blay, Pere, Caballero, Isabel, Coe, Malcolm J., Domingo, Albert, Doroshenko, Victor, Ducci, Lorenzo, Falanga, Maurizio, Grebenev, Sergei A., Grinberg, Victoria, Hemphill, Paul, Kreykenbohm, Ingo, Fritz, Sonja Kreykenbohm né, Li, Jian, Lutovinov, Alexander A., Martínez-Núñez, Silvia, Mas-Hesse, J. Miguel, Masetti, Nicola, McBride, Vanessa A., Neronov, Andrii, Pottschmidt, Katja, Rodriguez, Jérôme, Romano, Patrizia, Rothschild, Richard E., Santangelo, Andrea, Sguera, Vito, Staubert, Rüdiger, Tomsick, John A., Torrejón, José Miguel, Torres, Diego F., Walter, Roland, Wilms, Jörn, Wilson-Hodge, Colleen A., and Zhang, Shu

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

High mass X-ray binaries are among the brightest X-ray sources in the Milky Way, as well as in nearby Galaxies. Thanks to their highly variable emissions and complex phenomenology, they have attracted the interest of the high energy astrophysical community since the dawn of X-ray Astronomy. In more recent years, they have challenged our comprehension of physical processes in many more energy bands, ranging from the infrared to very high energies. In this review, we provide a broad but concise summary of the physical processes dominating the emission from high mass X-ray binaries across virtually the whole electromagnetic spectrum. These comprise the interaction of stellar winds with the high gravitational and magnetic fields of compact objects, the behaviour of matter under extreme magnetic and gravity conditions, and the perturbation of the massive star evolutionary processes by presence in a binary system. We highlight the role of the INTEGRAL mission in the discovery of many of the most interesting objects in the high mass X-ray binary class and its contribution in reviving the interest for these sources over the past two decades. We show how the INTEGRAL discoveries have not only contributed to significantly increase the number of high mass X-ray binaries known, thus advancing our understanding of the population as a whole, but also have opened new windows of investigation that stimulated the multi-wavelength approach nowadays common in most astrophysical research fields. We conclude the review by providing an overview of future facilities being planned from the X-ray to the very high energy domain that will hopefully help us in finding an answer to the many questions left open after more than 18 years of INTEGRAL scientific observations., Comment: 61 pages, 22 figures, 1 table, will be published in New Astronomy Reviews

Published
2020
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6. Optical and X-ray study of the peculiar high mass X-ray binary XMMU J010331.7-730144

Author

Monageng, Itumeleng M., Coe, Malcolm J., Buckley, David A. H., McBride, Vanessa A., Kennea, Jamie A., Udalski, Andrzej, Evans, Phil A., Clark, J. Simon, and Negueruela, Ignacio

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

For a long time XMMU J010331.7-730144 was proposed as a high-mass X-ray binary candidate based on its X-ray properties, however, its optical behaviour was unclear - in particular previous observations did not reveal key Balmer emission lines. In this paper we report on optical and X-ray variability of the system. XMMU J010331.7-730144 has been monitored with the Optical Gravitational Lensing Experiment (OGLE) in the I and V-bands for the past 9 years where it has shown extremely large amplitude outbursts separated by long periods of low-level flux. During its most recent optical outburst we obtained spectra with the Southern Africa Large Telescope (SALT) where, for the first time, the H-alpha line is seen in emission, confirming the Be nature of the optical companion. The OGLE colour-magnitude diagrams also exhibit a distinct loop which is explained by changes in mass-loss from the Be star and mass outflow in its disc. In the X-rays, XMMU J010331.7-730144 has been monitored by the Neil Gehrels Swift Observatory through the S-CUBED programme. The X-ray flux throughout the monitoring campaign shows relatively low values for a typical Be/X-ray binary system. We show, from the analysis of the optical data, that the variability is due to the Be disc density and opacity changing rather than its physical extent as a result of efficient truncation by the NS. The relatively low X-ray flux can then be explained by the neutron star normally accreting matter at a low rate due to the small radial extent of the Be disc., Comment: Accepted for publication in MNRAS

Published
2020
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7. A major optical & X-ray outburst from the Magellanic Bridge source RX J0209.6-7427

Author

Coe, Malcolm J., Monageng, Itumeleng M., Bartlett, Elizabeth S., Buckley, David A. H., and Udalski, Andrzej

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

RX J0209.6-7427 is an X-ray source in the Magellanic Bridge that was first detected in 1993, but not seen again till 2019. It has been identified as a member of the Be/X-ray binary class, a category of objects that are well established as bright, often-unpredictable transients. Such systems are rarely known in the Bridge, possibly because they lie outside the area most commonly studied by X-ray telescopes. Whatever the reason for the sparse number of such systems in the Bridge, they can provide useful tools for trying to understand the result of the tidal dynamics of the two Magellanic Clouds. In this paper the nature of the object is explored with the help of new data obtained during the latest outburst. In particular, the first optical spectrum of the counterpart is presented to help classify the star, plus measurements of the Balmer emission lines over several years are used to investigate changes in the size and structure of the circumstellar disk., Comment: 6 pages, 6 figures. Accepted for publication in MNRAS

Published
2020
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8. An X-ray and optical study of the outbursting behaviour of the SMC Be X-ray binary SXP 91.1

Author

Monageng, Itumeleng, Coe, Malcolm, Kennea, Jamie, Townsend, Lee, Buckley, David, McBride, Vanessa, Udalski, Andrzej, Evans, Phil, and Roche, Paul

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

In this paper we report on the optical and X-ray behaviour of the Be X-ray binary, SXP 91.1, during a recent type I outburst. We monitored the outburst using the Neil Gehrels Swift Observatory. These data were supported by optical data from the Southern African Large Telescope (SALT) and the Optical Gravitational Lensing Experiment (OGLE) to show the circumstellar disc activity. Matter from this disc accretes onto the neutron star, giving rise to the X-ray outburst as seen in the synchronous evolution of the optical and X-ray lightcurves. Using data taken with OGLE we show that the circumstellar disc has exhibited stable behaviour over two decades. A positive correlation is seen between the colour and magnitude from the OGLE and MACHO observations, which indicates that the disc is orientated at relatively low inclination angles. From the OGLE and Swift data, we demonstrate that the system has shown relative phase offsets that have persisted for many years. The spin period derivative is seen to be at maximum spin-up at phases when the mass accretion rate is at maximum. We show that the neutron star in SXP 91.1 is an unusual member of its class in that it has had a consistent spin period derivative over many years, with the average spin-up rate being one of the highest for known SMC pulsars. The most recent measurements of the spin-up rate reveal higher values than the global trend, which is attributed to the recent mass accretion event leading to the current outburst., Comment: Accepted for publication in MNRAS

Published
2019
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9. The SMC X-ray binary SXP4.78 : a new Type II outburst and the identification and study of the optical counterpart

Author

Monageng, Itumeleng, Coe, Malcolm, Townsend, Lee, Buckley, David, McBride, Vanessa, Roche, Paul, Kennea, Jamie, Udalski, Andrzej, and Evans, Phil

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

SXP4.78 was originally discovered in 2000 as a pulsar in the Small Magellanic Cloud (SMC) by the Rossi X-ray Timing Explorer (RXTE) but it was not spatially located at that time. A new detection in 2018 with the Neil Gehrels Swift Observatory during a Type II outburst permitted its position to be accurately located and its optical counterpart identified. We report X-ray and optical monitoring covering epochs before and during the outburst. Using photometric data we show the long-term variability of the Be disc where we present flux and colour changes associated with the disc growth and decay over a period of ~6000 days. We show evidence of disc growth during the recent outburst through an increase in the H-alpha equivalent width and photometric flux. Period analysis was performed using both optical photometric and spectroscopic data, but with no significant detection of an orbital period. A modest periodic signature of 2.65 days was detected from the OGLE I band data, however, but we attribute that to the non-radial pulsations (NRPs) of the Be star. We also obtained a blue spectrum from the Southern African Large Telescope (SALT) which permits us to classify the spectral type as B0.5 IV-V., Comment: Accepted for publication in MNRAS after minor revision

Published
2019
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10. Anti-correlation between X-ray luminosity and pulsed fraction in the Small Magellanic Cloud pulsar SXP 1323

Author

Yang, Jun, Zezas, Andreas, Coe, Malcolm J., Drake, Jeremy J., Hong, JaeSub, Laycock, Silas G. T., and Wik, Daniel R.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

We report the evidence for the anti-correlation between pulsed fraction (PF) and luminosity of the X-ray pulsar SXP 1323, found for the first time in a luminosity range $10^{35}$--$10^{37}$ erg s$^{-1}$ from observations spanning 15 years. The phenomenon of a decrease in X-ray PF when the source flux increases has been observed in our pipeline analysis of other X-ray pulsars in the Small Magellanic Cloud (SMC). It is expected that the luminosity under a certain value decreases as the PF decreases due to the propeller effect. Above the propeller region, an anti-correlation between the PF and flux might occur either as a result of an increase in the un-pulsed component of the total emission or a decrease of the pulsed component. Additional modes of accretion may also be possible, such as spherical accretion and a change in emission geometry. At higher mass accretion rates, the accretion disk could also extend closer to the neutron star (NS) surface, where a reduced inner radius leads to hotter inner disk emission. These modes of plasma accretion may affect the change in the beam configuration to fan-beam dominant emission., Comment: It has been accepted for publication in Monthly Notices of the Royal Astronomical Society Letters

Published
2018
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11. Multiwavelength monitoring and X-ray brightening of Be X-ray binary PSR J2032+4127/MT91 213 on its approach to periastron

Author

Ho, Wynn C. G., Ng, C. -Y., Lyne, Andrew G., Stappers, Ben W., Coe, Malcolm J., Halpern, Jules P., Johnson, Tyrel J., and Steele, Iain A.

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

The radio and gamma-ray pulsar PSR J2032+4127 was recently found to be in a decades-long orbit with the Be star MT91 213, with the pulsar moving rapidly towards periastron. This binary shares many similar characteristics with the previously unique binary system PSR B1259-63/LS 2883. Here, we describe radio, X-ray, and optical monitoring of PSR J2032+4127/MT91 213. Our extended orbital phase coverage in radio, supplemented with Fermi gamma-ray data, allows us to update and refine the orbital period to 45-50 yr and time of periastron passage to 2017 November. We analyse archival and recent Chandra and Swift observations and show that PSR J2032+4127/MT91 213 is now brighter in X-rays by a factor of ~70 since 2002 and ~20 since 2010. While the pulsar is still far from periastron, this increase in X-rays is possibly due to collisions between pulsar and Be star winds. Optical observations of the Halpha emission line of the Be star suggest that the size of its circumstellar disc may be varying by ~2 over timescales as short as 1-2 months. Multiwavelength monitoring of PSR J2032+4127/MT91 213 will continue through periastron passage, and the system should present an interesting test case and comparison to PSR B1259-63/LS 2883., Comment: 9 pages, 8 figures; published in MNRAS; v2, minor edits to better match published version

Published
2016
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12. On the relationship between circumstellar disc size and X-ray outbursts in Be/X-ray binaries

Author

Monageng, Itumeleng M., McBride, Vanessa A., Coe, Malcolm J., Steele, Iain A., and Reig, Pablo

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

We present long term H$\alpha$ monitoring results of five Be/X-ray binaries to study the Be disc size variations and their influence on Type II (giant) X-ray outbursts. The work is done in the context of the viscous decretion disc model which predicts that Be discs in binary systems are truncated by resonant torques induced by the neutron star in its orbit. Our observations show that type II outbursts are not correlated(nor anti-correlated) with the disc size, as they are seen to occur both at relatively small and large Be disc radii. We discuss these observations in context of alternate interpretation of Be disc behaviour, such as precession, elongation and density effects, and with cognisance of the limitations of our disc size estimates., Comment: 21 pages, 7 figures; accepted by MNRAS

Published
2016
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13. Advances in Understanding High-Mass X-ray Binaries with INTEGRALand Future Directions

Author

Kretschmar, Peter, Fürst, Felix, Sidoli, Lara, Bozzo, Enrico, Alfonso-Garzón, Julia, Bodaghee, Arash, Chaty, Sylvain, Chernyakova, Masha, Ferrigno, Carlo, Manousakis, Antonios, Negueruela, Ignacio, Postnov, Konstantin, Paizis, Adamantia, Reig, Pablo, Rodes-Roca, José Joaquín, Tsygankov, Sergey, Bird, Antony J., Bissinger né Kühnel, Matthias, Blay, Pere, Caballero, Isabel, Coe, Malcolm J., Domingo, Albert, Doroshenko, Victor, Ducci, Lorenzo, Falanga, Maurizio, Grebenev, Sergei A., Grinberg, Victoria, Hemphill, Paul, Kreykenbohm, Ingo, Kreykenbohm né Fritz, Sonja, Li, Jian, Lutovinov, Alexander A., Martínez-Núñez, Silvia, Mas-Hesse, J. Miguel, Masetti, Nicola, McBride, Vanessa A., Neronov, Andrii, Pottschmidt, Katja, Rodriguez, Jérôme, Romano, Patrizia, Rothschild, Richard E., Santangelo, Andrea, Sguera, Vito, Staubert, Rüdiger, Tomsick, John A., Torrejón, José Miguel, Torres, Diego F., Walter, Roland, Wilms, Jörn, Wilson-Hodge, Colleen A., and Zhang, Shu

Published
2019
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14. Swift J045106.8-694803; a highly magnetised neutron star in the Large Magellanic Cloud

Author

Klus, Helen, Bartlett, Elizabeth S., Bird, Antony J., Coe, Malcolm, Corbet, Robin, and Udalski, Andrzej

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Extragalactic Astrophysics
Abstract

We report the analysis of a highly magnetised neutron star in the Large Magellanic Cloud (LMC). The high mass X-ray binary pulsar Swift J045106.8-694803 has been observed with Swift X-ray telescope (XRT) in 2008, the Rossi X-ray Timing Explorer (RXTE) in 2011 and the X-ray Multi-Mirror Mission - Newton (XMM-Newton) in 2012. The change in spin period over these four years indicates a spin-up rate of -5.01+/-0.06 s/yr, amongst the highest observed for an accreting pulsar. This spin-up rate can be accounted for using Ghosh and Lamb's (1979) accretion theory assuming it has a magnetic field of (1.2 +0.2 -0.7)x10^14 Gauss. This is over the quantum critical field value. There are very few accreting pulsars with such high surface magnetic fields and this is the first of which to be discovered in the LMC. The large spin-up rate is consistent with Swift Burst Alert Telescope (BAT) observations which show that Swift J045106.8-694803 has had a consistently high X-ray luminosity for at least five years. Optical spectra have been used to classify the optical counterpart of Swift J045106.8-694803 as a B0-1 III-V star and a possible orbital period of 21.631+/-0.005 days has been found from MACHO optical photometry., Comment: 12 pages, 20 figures

Published
2012

15. Two Populations of X-ray Pulsars Produced by Two Types of Supernovae

Author

Knigge, Christian, Coe, Malcolm, and Podsiadlowski, Philipp

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies, Astrophysics - High Energy Astrophysical Phenomena
Abstract

Two types of supernova are thought to produce the overwhelming majority of neutron stars in the Universe. The first type, iron-core collapse supernovae, occurs when a high-mass star develops a degenerate iron core that exceeds the Chandrasekhar limit. The second type, electron-capture supernovae, is associated with the collapse of a lower-mass oxygen-neon-magnesium core as it loses pressure support owing to the sudden capture of electrons by neon and/or magnesium nuclei. It has hitherto been impossible to identify the two distinct families of neutron stars produced in these formation channels. Here we report that a large, well-known class of neutron-star-hosting X-ray pulsars is actually composed of two distinct sub-populations with different characteristic spin periods, orbital periods and orbital eccentricities. This class, the Be/X-ray binaries, contains neutron stars that accrete material from a more massive companion star. The two sub-populations are most probably associated with the two distinct types of neutron-star-forming supernovae, with electron-capture supernovae preferentially producing system with short spin period, short orbital periods and low eccentricity. Intriguingly, the split between the two sub-populations is clearest in the distribution of the logarithm of spin period, a result that had not been predicted and which still remains to be explained., Comment: Nature, in press; 14 pages, 4 figures (including main paper and supplementary information)

Published
2011
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16. Long-term Monitoring of Accreting Pulsars with Fermi GBM

Author

Finger, Mark H., Beklen, Elif, Bhat, P. Narayana, Paciesas, William S., Connaughton, Valerie, Buckley, David A. H., Camero-Arranz, Ascension, Coe, Malcolm J., Jenke, Peter, Kanbach, Gottfried, Negueruela, Ignacio, and Wilson-Hodge, Colleen A.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Using the Gamma ray Burst Monitor (GBM) on Fermi we are monitoring accreting pulsar systems. We use the rates from GBM's 12 NaI detectors in the 8-50 keV range to detect and monitor pulsations with periods between 0.5 and 1000 seconds. After discussing our analysis approach we present results for individual sources from the first year of monitoring. Updated figures for these and other sources are available at http://gammaray.nsstc.nasa.gov/gbm/science/pulsars/ ., Comment: To appear in the proceedings of 2009 Fermi Symposium, eConf Proceedings C091122

Published
2009

17. The population of massive X-ray binaries I. The Large Magellanic Cloud

Author

Negueruela, Ignacio and Coe, Malcolm J.

Subjects
Astrophysics
Abstract

We present high resolution blue spectroscopy of an almost complete sample of optical counterparts to massive X-ray binaries in the Large Magellanic Cloud (LMC) and derive their spectral classification. We find an spectral type B0II for the optical counterpart to RX J0532.5-6551, confirming it as the first wind-fed massive X-ray binary in the LMC. We also confirm the Be nature of the proposed counterpart to RX J0535.0-6700. The proposed optical counterpart to RX J0531.5-6518 is a B2V star with signs of emission in the Balmer lines. In total, we give accurate spectral types for 14 counterparts. We find that the overall observed population of massive X-ray binaries in the LMC has a distribution not very different from the observed Galactic population and we discuss different selection effects affecting our knowledge of this population. The spectral distribution of the Be/X-ray binary population is also rather similar to the Galactic one. This distribution implies that Be/X-ray binaries must have preferentially formed from moderately massive binaries undergoing semi-conservative evolution. The observation of several Be/X-ray binaries with large eccentricities implies then the existence of supernova kicks., Comment: 16 pages, 10 figures; uses new A&A macro. Accepted for publication in Astronomy and Astrophysics

Published
2002
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18. Multiwavelength observations of the Be/X-ray binary 4U1145-619

Author

Stevens, James B., Reig, Pablo, Coe, Malcolm J., Buckely, David H., Fabregat, Juan, and Steele, Iain A.

Subjects
Astrophysics
Abstract

We report optical and infrared observations of the massive X-ray binary system 4U1145-619 (V801 Cen) which show that the circumstellar disc of the Be star component is in decline. Infrared J,H,K,L magnitudes of V801Cen have been monitored from 1993 March to 1996 April. H alpha spectra have been obtained throughout the same period. We find that both the infrared excess and the Balmer emission have been in decline throughout the period of observations. A 13 year optical and X-ray history of the source has been collated, revealing a possible correlation between the optical and X-ray activity. In addition, we have used u,v,b,y,beta indices, corrected for both circumstellar and interstellar effects, to calculate the physical parameters of the underlying B star., Comment: 8 pages postscript. Accepted by MNRAS

Published
1997
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21. A major optical and X-ray outburst from the Magellanic Bridge source RX J0209.6-7427

Author

Coe, Malcolm, Monageng, I.M., Bartlett, E.S., Buckley, D.A.H., and Udalski, A.

Subjects
Astrophysics::High Energy Astrophysical Phenomena, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Galaxy Astrophysics
Abstract

RX J0209.6-7427 is an X-ray source in the Magellanic Bridge that was first detected in 1993, but not seen again till 2019. It has been identified as a member of the Be/X-ray binary class, a category of objects that are well established as bright, often-unpredictable transients. Such systems are rarely known in the Bridge, possibly because they lie outside the area most commonly studied by X-ray telescopes. Whatever the reason for the sparse number of such systems in the Bridge, they can provide useful tools for trying to understand the result of the tidal dynamics of the two Magellanic Clouds. In this paper the nature of the object is explored with the help of new data obtained during the latest outburst. In particular, the first optical spectrum of the counterpart is presented to help classify the star, plus measurements of the Balmer emission lines over several years are used to investigate changes in the size and structure of the circumstellar disk.

Published
2020

22. Grazing and 'degradation'

Author

Hambler, Clive, Canney, Susan M., Coe, Malcolm J., Henderson, Peter A., Illius, Andrew W., Gillson, Lindsey, and Hoffman, M.T.

Published
2007

23. Advances in Understanding High-Mass X-ray Binaries with INTEGRAL and Future Directions

Author

Universidad de Alicante. Departamento de Física Aplicada, Universidad de Alicante. Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal, Universidad de Alicante. Instituto Universitario de Física Aplicada a las Ciencias y las Tecnologías, Kretschmar, Peter, Fürst, Felix, Sidoli, Lara, Bozzo, Enrico, Alfonso-Garzón, Julia, Bodaghee, Arash, Chaty, Sylvain, Chernyakova, Masha, Ferrigno, Carlo, Manousakis, Antonios, Negueruela, Ignacio, Postnov, Konstantin, Paizis, Adamantia, Reig, Pablo, Rodes Roca, José Joaquín, Tsygankov, Sergey, Bird, Antony J., Bissinger né Kühnel, Matthias, Blay, Pere, Caballero, Isabel, Coe, Malcolm J., Domingo, Albert, Doroshenko, Victor, Ducci, Lorenzo, Falanga, Maurizio, Grebenev, Sergei A., Grinberg, Victoria, Hemphill, Paul, Kreykenbohm, Ingo, Kreykenbohm né Fritz, Sonja, Li, Jian, Lutovinov, Alexander A., Martínez Núñez, Silvia, Mas-Hesse, J. Miguel, Masetti, Nicola, McBride, Vanessa A., Neronov, Andrii, Pottschmidt, Katja, Rodriguez, Jérôme, Romano, Patrizia, Rothschild, Richard E., Santangelo, Andrea, Sguera, Vito, Staubert, Rüdiger, Tomsick, John A., Torrejon, Jose M., Torres, Diego F., Walter, Roland, Wilms, Jörn, Wilson-Hodge, Colleen A., Zhang, Shu, Universidad de Alicante. Departamento de Física Aplicada, Universidad de Alicante. Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal, Universidad de Alicante. Instituto Universitario de Física Aplicada a las Ciencias y las Tecnologías, Kretschmar, Peter, Fürst, Felix, Sidoli, Lara, Bozzo, Enrico, Alfonso-Garzón, Julia, Bodaghee, Arash, Chaty, Sylvain, Chernyakova, Masha, Ferrigno, Carlo, Manousakis, Antonios, Negueruela, Ignacio, Postnov, Konstantin, Paizis, Adamantia, Reig, Pablo, Rodes Roca, José Joaquín, Tsygankov, Sergey, Bird, Antony J., Bissinger né Kühnel, Matthias, Blay, Pere, Caballero, Isabel, Coe, Malcolm J., Domingo, Albert, Doroshenko, Victor, Ducci, Lorenzo, Falanga, Maurizio, Grebenev, Sergei A., Grinberg, Victoria, Hemphill, Paul, Kreykenbohm, Ingo, Kreykenbohm né Fritz, Sonja, Li, Jian, Lutovinov, Alexander A., Martínez Núñez, Silvia, Mas-Hesse, J. Miguel, Masetti, Nicola, McBride, Vanessa A., Neronov, Andrii, Pottschmidt, Katja, Rodriguez, Jérôme, Romano, Patrizia, Rothschild, Richard E., Santangelo, Andrea, Sguera, Vito, Staubert, Rüdiger, Tomsick, John A., Torrejon, Jose M., Torres, Diego F., Walter, Roland, Wilms, Jörn, Wilson-Hodge, Colleen A., and Zhang, Shu

Abstract

High mass X-ray binaries are among the brightest X-ray sources in the Milky Way, as well as in nearby Galaxies. Thanks to their highly variable emissions and complex phenomenology, they have attracted the interest of the high energy astrophysical community since the dawn of X-ray Astronomy. In more recent years, they have challenged our comprehension of physical processes in many more energy bands, ranging from the infrared to very high energies. In this review, we provide a broad but concise summary of the physical processes dominating the emission from high mass X-ray binaries across virtually the whole electromagnetic spectrum. These comprise the interaction of stellar winds with the high gravitational and magnetic fields of compact objects, the behaviour of matter under extreme magnetic and gravity conditions, and the perturbation of the massive star evolutionary processes by presence in a binary system. We highlight the role of the INTEGRAL mission in the discovery of many of the most interesting objects in the high mass X-ray binary class and its contribution in reviving the interest for these sources over the past two decades. We show how the INTEGRAL discoveries have not only contributed to significantly increase the number of high mass X-ray binaries known, thus advancing our understanding of the population as a whole, but also have opened new windows of investigation that stimulated the multi-wavelength approach nowadays common in most astrophysical research fields. We conclude the review by providing an overview of future facilities being planned from the X-ray to the very high energy domain that will hopefully help us in finding an answer to the many questions left open after more than 18 years of INTEGRAL scientific observations.

Published
2020

26. The Sahel stops here

Author

Coe, Malcolm

Subjects
Sahel -- Environmental aspects, Africa -- Description and travel, Deserts -- Description and travel -- Environmental aspects, Geography, Description and travel, Environmental aspects
Abstract

Although it is fashionable to avow the environmental cause of conserving our rainforests, the and and semi-arid savannas of Africa -- which cover two thirds of the continent's surface -- [...]

Published
1998

38. Geology

Author

Coe, Malcolm James, Van Oye, P., editor, and Coe, Malcolm James

Published
1967
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39. Confirmation of six Be X-ray binaries in the Small Magellanic Cloud

Author

Universidad de Alicante. Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal, McBride, Vanessa A., González-Galán, Ana, Bird, Antony J., Coe, Malcolm J., Bartlett, Elizabeth S., Dorda Laforet, Ricardo, Haberl, Frank, Marco, Amparo, Negueruela, Ignacio, Schurch, Matthew P.E., Sturm, Richard, Buckley, David A.H., Udalski, Andrzej, Universidad de Alicante. Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal, McBride, Vanessa A., González-Galán, Ana, Bird, Antony J., Coe, Malcolm J., Bartlett, Elizabeth S., Dorda Laforet, Ricardo, Haberl, Frank, Marco, Amparo, Negueruela, Ignacio, Schurch, Matthew P.E., Sturm, Richard, Buckley, David A.H., and Udalski, Andrzej

Abstract

The X-ray binary population of the Small Magellanic Cloud (SMC) contains a large number of massive X-ray binaries, and the recent survey of the SMC by XMM–Newton has resulted in almost 50 more tentative high-mass X-ray binary (HMXB) candidates. Using probability parameters from Haberl and Sturm together with the optical spectra and timing in this work, we confirm six new massive X-ray binaries in the SMC. We also report two very probable binary periods of 36.4 d in XMM 1859 and of 72.2 d in XMM 2300. These Be X-ray binaries are likely part of the general SMC population, which rarely undergoes an X-ray outburst.

Published
2017

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